DOCSLIB.ORG

Wellwash and Wellwash Versa Washers for Expanded Functionality Ease of Use, Convenience, and Versatility for Washing Microplates in ELISA Assays

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Wellwash and Wellwash Versa Washers for Expanded Functionality Ease of Use, Convenience, and Versatility for Washing Microplates in ELISA Assays Wellwash and Wellwash Versa washers for expanded functionality Ease of use, convenience, and versatility for washing microplates in ELISA assays Reliable and easy-to-use Thermo Scientifi ™c Wellwash™ microplate strip washers provide secure washing performance for routine and research ELISA applications. Wellwash washers feature a large color display with graphical user interface, local language versions, and non-pressurized bottles for optimal ease of use, convenience, and safety. The Thermo Scientifi ™c Wellwash™ Microplate Washer is the In addition, the Wellwash Versa washer off ers: basic model for washing 96-well plates. It is intended for • Very fast and simple instrument setup and use with use when only a few similar assays are run routinely. The color-coded tube fi ttings and liquid-level sensor cables Thermo Scientifi ™c Wellwash™ Versa Microplate Washer is the advanced model for 96-well plates that can also wash • Wide selection of wash heads for 96-well plates and cells and 384-well plates, off ering the enhanced fl exibility 1 x 16 wash head for 384-well plates needed for research use. • Specially designed 2 x 8-cell wash head for gentle washing of cells in a 96-well plate Wellwash and Wellwash Versa washers off er: • Easy setup of wash protocols through a large color • Two wash bottles and one rinse bottle for screen and a visual user interface increased fl exibility • A sweep mode to ensure an extremely low residual • Easy connection to automation systems volume in the well, resulting in excellent washing performance and reliable ELISA results Convenient and simple to use • Adjustable wash parameters, such as dispense and The large color screen makes Wellwash and Wellwash aspiration height and aspiration speed, for optimal Versa washers very easy and convenient to use. The user washing performance interface is logical and intuitive, requiring minimal training so that protocols can be developed quickly. Ready-made • A USB port for transferring protocols between several demo protocols and a context-sensitive help feature is washers and for printing reports and log fi les included in both instruments. Optimal washing performance for reliable A specially designed wash head is available for cell assay results washing in 96-well plates. The wash parameters of the Wellwash washers efficiently remove liquid from wells. Wellwash Versa unit can be adjusted to achieve a gentle Very low residual volumes eliminate high background wash to remove excess liquid without disturbing the cell signal to ensure reliable assay results without decreasing layer, critical for cell-washing applications. assay analytical sensitivity or false-positive or -negative test results. In addition, installation qualification (IQ), operation qualification (OQ), and performance qualification (PQ) Residual volumes are further minimized by the crosswise documents and service packages are available. sweep aspiration mode. By adjusting wash parameters such as the number of wash cycles, soaking time, shaking Pairing Wellwash instruments with speed, dispense and aspiration height, and aspiration Thermo Scientific™ ELISA assays speed, washing performance can be optimized so that the ELISAs are highly popular assays for protein best possible washing performance is achieved. quantitation because of their ease of use, remarkable analytical sensitivity, and the rapid and consistent Reliable and secure performance results they provide, which are simple to analyze. The wash and waste bottles in Wellwash washers are not By automating the washing steps with the aid of pressurized, to minimize the risk of spillage and to prevent the Wellwash and Wellwash Versa instruments, the the washing liquid from being drawn into the aspiration assay performance can be greatly improved. This is pump, which could damage the instrument. especially relevant when running a large number of ELISA plates every day. The liquid level sensors in both the wash and waste bottles help ensure safe performance. The plate sensor recognizes We offer a wide selection of ELISA kits, which are if a plate is present or not. The aerosol cover prevents developed to meet customers’ expected specifications, aerosols of infectious diseases from spreading. including standard calibration, precision, analytical sensitivity and specificity, recovery, lot-to-lot Added versatility for research use consistency, linearity, and parallelism. Both washers feature linear shaking to increase Learn more at thermofisher.com/elisa washing efficiency. Ordering information Product Cat. No. Wellwash Microplate Washer, 1 x 8, 100–240 V, 50/60 Hz, includes 1 x 8 wash head, 5165000 1 x 2 L wash bottle, 1 x 2 L waste bottle, aerosol cover Wellwash Microplate Washer, 1 x 12, 100–240 V, 50/60 Hz, includes 1 x 12 wash head, 5165040 1 x 2 L wash bottle, 1 x 2 L waste bottle, aerosol cover Wellwash Versa Microplate Washer, 2 x 8, 100–240 V, 50/60 Hz, includes two 1 x 8 wash heads, 5165010 2 x 2 L wash bottle, 1 x 2 L rinse bottle, 1 x 4 L waste bottle, aerosol cover Wellwash Versa Microplate Washer, 2 x 12, 100–240 V, 50/60 Hz, includes two 1 x 12 wash heads, 5165050 2 x 2 L wash bottle, 1 x 2 L rinse bottle, 1 x 4 L waste bottle, aerosol cover Find out more at thermofisher.com/wellwash For Research Use Only. Not for use in diagnostic procedures. © 2020 Thermo Fisher Scientific Inc. All rights reserved. All trademarks are the property of Thermo Fisher Scientific and its subsidiaries unless otherwise specified. COL111103 0220.
Load more

Recommended publications
  • Oristm Cell Migration Assay – Tricoated
    TM Oris Cell Migration Assay – TriCoated Product No.: CMATR1 & CMATR5 96-well, 2-D Assay for Investigating Cell Migration of Adherent Cell Lines on Three Coated Surfaces PROTOCOL & INSTRUCTIONS Table of Contents I. INTRODUCTION .................................................................................................. 2 II. ORISTM PLATE DIMENSIONS .............................................................................. 3 III. MATERIALS PROVIDED ...................................................................................... 3 IV. MATERIALS REQUIRED ...................................................................................... 3 V. CELL MIGRATION ASSAY – TRICOATED PROTOCOL .................................... 4 VI. DATA ACQUISITION ............................................................................................ 6 VII. ORDERING INFORMATION ................................................................................ 7 VIII. TERMS & CONDITIONS ...................................................................................... 7 Appendix I: Determining Optimal Cell Seeding Concentration ............................. 8 Appendix II: Determining Optimal Fluorescence Microplate Reader Settings ...... 8 Platypus Technologies, LLC 5520 Nobel Drive, Suite 100, Madison, WI 53711 Toll Free: 866.3296.4455 Phone: 608.237.1270 Fax: 608.237.1271 www.platypustech.com SP0034.06 Oris™ CELL MIGRATION ASSAY – TRICOATED I. INTRODUCTION The Oris™ Cell Migration Assay – TriCoated is a reproducible, sensitive, and flexible
    [Show full text]
  • Increasing the Reproducibility of Serial Dilutions
    Increasing the Reproducibility of Serial Dilutions Michael Beier* Abstract Pipetting serial dilutions reproducibly can be difficult because it is a time consuming and consequently error prone methodology, especially in 384 well plates. Based upon the assumption that your pipettes are properly maintained and calibrated, the human influence has the largest impact on pipetting results. Observing good pipetting practice helps immensely to improve reproducibility and accuracy. In this article we focus on a selection of good pipetting techniques, which if maintained offer the best chance of increasing and maintaining the reproducibility of your serial dilutions. Mixing is a key component of dilution protocols and in this article we additionally discuss different mixing parameters to help you achieve a homogenous sample. To maximize consistency of dilution assays, automating the process offers many benefits. For ensuring highly reproducible serial dilutions we outline what features an automated pipetting system should have and introduce the VIAFLO ASSIST – a product purpose designed for this task. Introduction to good pipetting practice Good pipetting practice describes guidelines covering the basic techniques to ensure that the pipettes are used in an optimal and reproducible manner. Before preparing your assay, you should perform a pre-wet of your pipette tips. Do this by aspirating and dispensing the full volume 2-3 times. This procedure not only equilibrates temperature differences between liquid and tip but also humidifies the dead air space inside the pipette and tip. Neglecting to perform a pre-wet can result in a smaller delivery volume in the first few dispenses, thereby introducing errors into your subsequent dilution steps.
    [Show full text]
  • Evos Cell Imaging Analysis Systems
    Imaging, labeling, and detection solutions Microscopy | High-content analysis | Cell counting | Plate reading Minimizing the complexities of cellular analysis Our cellular analysis product portfolio combines the strengths of Invitrogen™ fluorescent reagents and a complete line of versatile analysis instrumentation. Select from a line of heavily peer-referenced platforms to make the discoveries that catalyze advances toward your research goals of tomorrow. Invitrogen™ EVOS™ imaging systems Our comprehensive imaging portfolio includes: • Cell imaging systems • Automated cell counting systems • High-content analysis systems Invitrogen™ Countess™ cell counters • Cell imaging reagents • Microplate readers All of our analysis systems are designed to work together— Thermo Scientific™ CellInsight™ from the initial cell culture check to more complex analyses. high-content analysis systems Discover more about your samples with automated cell counting, long-term live-cell imaging, automated multiwell plate scanning, and phenotypic screening. Thermo Scientific™ Varioskan™ LUX multimode plate reader Contents Microscopy Compact and portable imaging systems 4 EVOS imaging systems at a glance 5 EVOS M7000 Imaging System 6 Live-cell imaging with the Onstage Incubator 8 Image analysis with Celleste software 10 EVOS M5000 Imaging System 12 EVOS FLoid Imaging Station 14 EVOS XL Core Imaging System 15 EVOS vessel holders and stage plates 16 The power of LED illumination 17 EVOS objectives 18 Fluorophore selection guide 20 High-content analysis CellInsight high-content analysis platforms 22 CellInsight CX7 LZR High-Content Analysis Platform 24 CellInsight CX5 High-Content Screening Platform 25 HCS Studio Cell Analysis Software 26 Store Image and Database Management Software 27 Cell counting Countess II Automated Cell Counters 28 Plate reading Microplate readers 30 Microscopy Compact and portable imaging systems Now you can have an easy-to-use cell imaging platform From intimate hands-on demonstrations to presentations of where you want it and when you want it.
    [Show full text]
  • ELISA Plate Reader
    applications guide to microplate systems applications guide to microplate systems GETTING THE MOST FROM YOUR MOLECULAR DEVICES MICROPLATE SYSTEMS SALES OFFICES United States Molecular Devices Corp. Tel. 800-635-5577 Fax 408-747-3601 United Kingdom Molecular Devices Ltd. Tel. +44-118-944-8000 Fax +44-118-944-8001 Germany Molecular Devices GMBH Tel. +49-89-9620-2340 Fax +49-89-9620-2345 Japan Nihon Molecular Devices Tel. +06-6399-8211 Fax +06-6399-8212 www.moleculardevices.com ©2002 Molecular Devices Corporation. Printed in U.S.A. #0120-1293A SpectraMax, SoftMax Pro, Vmax and Emax are registered trademarks and VersaMax, Lmax, CatchPoint and Stoplight Red are trademarks of Molecular Devices Corporation. All other trademarks are proprty of their respective companies. complete solutions for signal transduction assays AN EXAMPLE USING THE CATCHPOINT CYCLIC-AMP FLUORESCENT ASSAY KIT AND THE GEMINI XS MICROPLATE READER The Molecular Devices family of products typical applications for Molecular Devices microplate readers offers complete solutions for your signal transduction assays. Our integrated systems γ α β s include readers, washers, software and reagents. GDP αs AC absorbance fluorescence luminescence GTP PRINCIPLE OF CATCHPOINT CYCLIC-AMP ASSAY readers readers readers > Cell lysate is incubated with anti-cAMP assay type SpectraMax® SpectraMax® SpectraMax® VersaMax™ VMax® EMax® Gemini XS LMax™ ATP Plus384 190 340PC384 antibody and cAMP-HRP conjugate ELISA/IMMUNOASSAYS > nucleus Single addition step PROTEIN QUANTITATION cAMP > λEX 530 nm/λEM 590 nm, λCO 570 nm UV (280) Bradford, BCA, Lowry For more information on CatchPoint™ assay NanoOrange™, CBQCA kits, including the complete procedure for this NUCLEIC ACID QUANTITATION assay (MaxLine Application Note #46), visit UV (260) our web site at www.moleculardevices.com.
    [Show full text]
  • Modulus™ II Microplate Multimode Reader
    Modulus™ II Microplate Multimode Reader Operating Manual Part Number 998-9375 Rev E Turner BioSystems, Inc. and its suppliers own the written and other materials in the Modulus II Microplate Reader operating manual. The written materials are copyrighted and protected by the copyright laws of the United States of America and, throughout the world, by the copyright laws of each jurisdiction according to pertinent treaties and conventions. No part of this manual may be reproduced manually, electronically, or in any other way without the written permission of Turner BioSystems, Inc. Modulus™ is a trademark of Turner BioSystems, Inc. All of the trademarks, service marks, and logos used in these materials are the property of Turner BioSystems, Inc. or their respective owners. All goods and services are sold subject to the terms and conditions of sale of the company within the Turner BioSystems, Inc. group that supplies them. A copy of these terms and conditions is available on request. NOTICE TO PURCHASER: The Modulus™ II Microplate Reader is for research purposes only. It is not intended or approved for diagnosis of disease in humans or animals. © Turner BioSystems, Inc. 2008 - All rights reserved. Made in the USA 2 Table of Contents 1 Instrument ............................................................................................................................... 7 1.1 Getting Started ................................................................................................................. 7 1.1.1 Description ...........................................................................................................
    [Show full text]
  • Microplate Selection and Recommended Practices in High-Throughput Screening and Quantitative Biology
    NLM Citation: Auld DSPh.D., Coassin PAB.S., Coussens NPPh.D., et al. Microplate Selection and Recommended Practices in High-throughput Screening and Quantitative Biology. 2020 Jun 1. In: Sittampalam GS, Grossman A, Brimacombe K, et al., editors. Assay Guidance Manual [Internet]. Bethesda (MD): Eli Lilly & Company and the National Center for Advancing Translational Sciences; 2004-. Bookshelf URL: https://www.ncbi.nlm.nih.gov/books/ Microplate Selection and Recommended Practices in High-throughput Screening and Quantitative Biology Douglas S. Auld, Ph.D.,1 Peter A. Coassin, B.S.,2 Nathan P. Coussens, Ph.D.,3 Paul Hensley,4 Carleen Klumpp-Thomas,5 Sam Michael,5 G. Sitta Sittampalam, Ph.D.,5 O. Joseph Trask, B.S.,6 Bridget K. Wagner, Ph.D.,7 Jeffrey R. Weidner, Ph.D.,8 Mary Jo Wildey, Ph.D.,9 and Jayme L. Dahlin, M.D., Ph.D. 7,10 Created: June 1, 2020. Abstract High-throughput screening (HTS) can efficiently assay multiple discrete biological reactions using multi-well microplates. The choice of microplate is a crucial yet often overlooked technical decision in HTS and quantitative biology. This chapter reviews key criteria for microplate selection, including: well number, well volume and shape, microplate color, surface treatments/coatings, and considerations for specialized applications such as high-content screening. This chapter then provides important technical advice for microplate handling including mixing, dispensing, incubation, and centrifugation. Special topics are discussed, including microplate surface properties, plate washing, well-to-well contamination, microplate positional effects, well-to-well and inter-lot variability, and troubleshooting. This information and best practices derived from academic, government, and industry screening centers, as well as microplate vendors, should accelerate assay development and enhance assay quality.
    [Show full text]
  • Glomax(R) 96 Microplate Luminometer Technical Manual
    TECHNICAL MANUAL GloMax® 96 Microplate Luminometer Instructions for Use of Products E6501, E6511 and E6521 Revised 1/16 TM278 GloMax® 96 Microplate Luminometer All technical literature is available at: www.promega.com/protocols/ Visit the web site to verify that you are using the most current version of this Technical Manual. E-mail Promega Technical Services if you have questions on use of this system: [email protected] 1. Description .........................................................................................................................................3 1.A. Inspection .................................................................................................................................3 1.B. Precautions and Computer Requirements .....................................................................................4 2. Product Components ...........................................................................................................................5 3. Hardware Overview ............................................................................................................................6 4. Software Installation and Setup............................................................................................................7 5. Using the GloMax® 96 Software ...........................................................................................................8 5.A. Overview ...................................................................................................................................8
    [Show full text]
  • Thermo Scientific Pipetting Guide
    Thermo Scientific Pipetting Guide Tips for Good Laboratory Pipetting Part of Thermo Fisher Scientific Thermo Scientific Thermo Scientific Contents Introduction 3 Pipetting Pipetting Guide Pipetting terms 3 Types of pipettes 4 General pipetting guidelines 6 Pipetting techniques 6 Tip information 7 Recommendations for pipetting different compounds 8 Ensuring optimum performance 8 Usage of Finpipette Novus 9 Factors affecting the accuracy of air displacement pipettes 10 Preventing cross-contamination 11 Maintenance of your Finnpipettes 1 Autoclaving 1 UV resistance 1 Calibrating your pipettes (incl. conversion table) 13 On-line pipette calibration 15 General guidelines for decontaminating pipettes 16 Chemical compatibility of plastics 18 Customer support 19 Trouble shooting 19 Thermo Scientific Over 35 Years of Innovation A leader in pipetting For over 35 years we have led the way in liquid handling products and microplate instrumentation. We have always ensured that innovation, ergonomics, accuracy, precision and safety are key aspects of our products’ designs. In 1971 we introduced Thermo Scientific Finnpipettes, the world’s first continuously variable micropi- pettes. In 1976 we introduced the world’s first multichannel pipette. Since then we have continuously improved our pipettes, always leading the way with ergonomic design. Over the last 35 years, innovations such as the improved finger rest, soft-touch tip ejection and super blow-out have made Finnpipettes increasingly user-friendly. Our intensive research program and commitment to our customers forms the foundation for future innovations. The new demands in pipette applications are the key drivers of our product development. To date, over 3 mil- lion Finnpipettes have been sold in 150 countries.
    [Show full text]
  • Thermo Scientific Multiskan GO User Manual 3 About This User Manual for More Information
    Thermo Scientific Multiskan GO User Manual Rev. 1.2, Cat. No. N10588 Copyright Copyright 2015 Thermo Fisher Scientific Corporation. All rights reserved. Reproduction of the accompanying user documentation in whole or in part is prohibited. Trademarks “Multiskan” and “SkanIt” are registered trademarks of Thermo Fisher Scientific. All other trademarks and registered trademarks are the property of their respective holders. Disclaimer Thermo Fisher Scientific reserves the right to change its products and services at any time to incorporate technological developments. This manual is subject to change without prior notice as part of a continuous product development. Although this manual has been prepared with every precaution to ensure accuracy, Thermo Fisher Scientific assumes no liability for any errors or omissions, nor for any damages resulting from the application or use of this information. This manual supersedes all previous editions. Remarks on screenshots Screenshots may be slightly different on your system depending on the firmware version. No liability for consequential damages Thermo Fisher Scientific shall not be liable for any damages whatsoever arising out of the use or inability to use this product. Power failure The system requires uninterrupted power supply in order to operate correctly. Thermo Fisher Scientific has no responsibility whatsoever for system malfunctions arising from power failures. About This User Manual Intended users About This User Manual Intended users The Multiskan GO, as standalone or with Thermo Scientific SkanIt Software, can be used in research laboratories by professional personnel. How to use this This user manual is for the following instruments, Multiskan GO w/o cuvette: Cat. no. 51119200 and 51119250 (Japan), and Multiskan GO user manual with cuvette: 51119300 and 51119350 (Japan).
    [Show full text]
  • Micro BCA Protein Assay Kit
    INSTRUCTIONS Micro BCA Protein Assay Kit 0412.6 23235 Number Description 23235 Micro BCA Protein Assay Kit, sufficient reagents for 480 tube assays or 3200 microplate assays Kit Contents: Micro BCA Reagent A (MA), 240mL Micro BCA Reagent B (MB), 240mL Micro BCA Reagent C (MC), 12mL Bovine Serum Albumin Standard Ampules, 2mg/mL, 10 × 1mL ampules containing bovine serum albumin (BSA) at 2.0mg/mL in a solution of 0.9% saline and 0.05% sodium azide Storage: Upon receipt store product at room temperature. Product shipped at ambient temperature. Note: If either Reagent MA or Reagent MB precipitates upon shipping in cold weather or during long- term storage, dissolve precipitates by gently warming and stirring solutions. Discard any reagent that shows discoloration or evidence of microbial contamination. Table of Contents Introduction ................................................................................................................................................................................. 1 Preparation of Standards and Working Reagent .......................................................................................................................... 2 Test Tube Procedure (linear working range of 0.5-20µg/mL) ..................................................................................................... 3 Microplate Procedure (linear working range of 2-40µg/mL) ...................................................................................................... 3 Troubleshooting ..........................................................................................................................................................................
    [Show full text]
  • Brochure: Varioskan LUX Multimode Microplate Reader
    Varioskan LUX multimode microplate reader Versatility simplified for a range of applications Varioskan LUX multimode microplate reader Optimized for fast and reliable results, even for the most challenging of applications Designed specifically for bioscience researchers with a wide variety of needs and assay requirements, the Thermo Scientific™ Varioskan™ LUX multimode microplate reader comes equipped with a range of measurement technologies, including absorbance and fluorescence intensity with optional luminescence, AlphaScreen™ technology (PerkinElmer), and time-resolved fluorescence modules. Streamline your measurements with automatic dynamic range selection, which adjusts the optimal reading range based on the signal intensities. The Varioskan LUX reader also offers optional dispensers for reagent addition, a built-in shaker, gas and temperature control, bottom reading, and spectral scanning. Catering to all applications, skill sets The Varioskan LUX reader is a versatile tool for busy labs. The instrument also allows for flexible spectral scanning to Configure the instrument to your needs, then upgrade identify the optimal wavelength for any assay, now and in when your research focus changes. The Varioskan LUX the future. reader supports the following measurement technologies: The Varioskan LUX microplate reader offers you: • Absorbance (UV-Vis, including path length correction) • Modular, upgradable system for customization to • Fluorescence intensity (including fluorescence resonance research needs energy transfer (FRET)) • Five
    [Show full text]
  • A Simple Yet Effective AIE-Based Fluorescent Nano-Thermometer For
    Nanoscale Horizons View Article Online COMMUNICATION View Journal A simple yet effective AIE-based fluorescent nano- thermometer for temperature mapping in living Cite this: DOI: 10.1039/c9nh00693a cells using fluorescence lifetime imaging Received 3rd November 2019, microscopy† Accepted 27th November 2019 ab a a ac d DOI: 10.1039/c9nh00693a Hui Gao, Chuen Kam, Tsu Yu Chou, Ming-Yu Wu, Xin Zhao and Sijie Chen *a rsc.li/nanoscale-horizons We designed and synthesized a novel nano-thermometer using aggregation-induced-emission (AIE) dye as the reporter and house- hold butter as the matrix. This temperature nanosensor showed New concepts decreased fluorescence intensities (B2%/8C) and shorter fluores- Temperature is a fundamental and important parameter in living organ- B isms. Not until recently have researchers successfully used fluorescent Creative Commons Attribution-NonCommercial 3.0 Unported Licence. cence lifetimes ( 0.11 ns/8C) upon increasing the environmental thermometers to measure temperature in single cell. Nonetheless, those temperature in the physiological temperature range. Such fluores- temperature sensing tools, such as fluorescent polymeric thermometers, cence responses were reversible and independent of the environmental possess complex structures and require tedious fabrication procedures. pH and ionic strength. The application of these nano-thermometers in This very much limits the choice and application of cellular thermo- temperature sensing in living cells using fluorescence lifetime imaging meters as a tool for the analysis of the physiological status. We report here a novel design of a fluorescent thermometer containing household microscopy (FLIM) was also demonstrated. To the best of our knowledge, butter as a temperature-responsive matrix and aggregation-induced- this is the first example of AIE-based nano-thermometer for temperature emission (AIE)-active dye as a reporter which is simple to fabricate.
    [Show full text]